function tempstr1=makeMATLABcallstring(howmany,subscripts,centercomma,parens,i,j);
declare_globals
tempstr1=''; %default
for k=1:howmany
is_real=0; is_complex=0; is_integer=1; is_logical=0; is_1d=0; is_2d=0; scalar=1;
is_2d_r=0; is_2d_c=0;
if howmany==1
if isinf(j)
start=parens(1); finish=parens(2);
[outflag,howmany3,subscripts3,centercomma3,parens]=inwhichlast(i,parens(1)); %97
else
start=parens(1); finish=parens(2);
end
nums=find((funstrnumbers_b{i}>=start)&(funstrnumbers_b{i}<=finish));
words=find((funstrwords_b{i}>=start)&(funstrwords_b{i}<=finish));
else
if k==1
start=parens(1); finish=centercomma(1);
elseif k==howmany
start=centercomma(k-1); finish=parens(2);
else
start=centercomma(k-1); finish=centercomma(k);
end
nums=find((funstrnumbers_b{i}>=start)&(funstrnumbers_b{i}<=finish));
words=find((funstrwords_b{i}>=start)&(funstrwords_b{i}<=finish));
end
for m=1:length(words) %Should be a main level (or in bracket in main level) word to check it
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,funstrwords_b{i}(words(m)));
if ~isempty(parens3)
%if parens3(1)==parens(1)% | parens4(1)==parens(1)
if parens3(1)==parens(1) | parens3(1)==1
%howmany,subscripts,centercomma,parens,i,j,nums,words,kb
if length(find(strcmpi(funstrwords{i}(words(m)),inoutother3)))>0 %Have a variable
if length(find(strcmpi(funstrwords{i}(words(m)),inoutother{3})))>0 %Have a local variable
temp1=find(strcmpi(funstrwords{i}(words(m)),inoutother{3}));
if strcmpi(localvartype{temp1},'real')
is_real=1; %Now we are indexed to the real numbers.
elseif strcmpi(localvartype{temp1},'complex')
is_complex=1;
elseif strcmpi(localvartype{temp1},'logical')
is_logical=1;
end
else
if isreal(getfield(cw,funstrwords{i}{words(m)}))
is_real=1; %Now we are indexed to the real numbers.
else
is_complex=1;
end
end
[howmany2,subscripts2,centercomma2,parens2]=hassubscript(i,words(m));
%What dim of var do we have?
if howmany2==0 %No subscript? either 2d or scalar
if prod(size(getfield(cw,funstrwords{i}{words(m)})))>1
if size(getfield(cw,funstrwords{i}{words(m)}),1)==1, is_2d_r=1;
elseif size(getfield(cw,funstrwords{i}{words(m)}),2)==1, is_2d_c=1;
else is_2d=1;
end
end
elseif howmany2>0 %Run through subscripts, if have anything but scalar, result is 2d
if ~is_2d
typestr=makeMATLABcallstring(howmany2,subscripts2,centercomma2,parens2,i,words(m));
if howmany2==1
if any(strcmpi(typestr(1),typs{12})) %non scalar
if size(getfield(cw,funstrwords{i}{words(m)}),1)==1
if any(strcmpi(typestr(1),typs{1})) %If a array indexes a row, result is matrix
is_2d=1;
else %Otherwise result is row
is_2d_r=1;
end
elseif size(getfield(cw,funstrwords{i}{words(m)}),2)==1
if any(strcmpi(typestr(1),typs{1})) %If a array indexes a column, result is matrix
is_2d=1;
else %Otherwise result is col
is_2d_c=1;
end
else %Have a 2-D var with 1 subscript, must be find or some, so result is same as subscr
if any(strcmpi(typestr(1),typs{1})) %array indexed by array, result is array
is_2d=1;
elseif any(strcmpi(typestr(1),typs{9}))|any(strcmpi(typestr(1),typs{4}))
is_2d_r=1;
elseif any(strcmpi(typestr(1),typs{10}))%array indexed by col, result is col
is_2d_c=1;
end
end
end
elseif howmany2==2
if any(strcmpi(typestr(1),typs{12}))&any(strcmpi(typestr(2),typs{12})) %both non scalar
if size(getfield(cw,funstrwords{i}{words(m)}),1)==1, is_2d_r=1;
elseif size(getfield(cw,funstrwords{i}{words(m)}),2)==1, is_2d_c=1;
else %Have a 2-D array indexed by 2 vectors, result is array
nums1=find((funstrnumbers_b{i}>=parens2(1))&(funstrnumbers_b{i}<=centercomma2(1)));
words1=find((funstrwords_b{i}>=parens2(1))&(funstrwords_b{i}<=centercomma2(1)));
nums2=find((funstrnumbers_b{i}>=centercomma2(1))&(funstrnumbers_b{i}<=parens2(2)));
words2=find((funstrwords_b{i}>=centercomma2(1))&(funstrwords_b{i}<=parens2(2)));
if (length(nums1)+length(words1))==1 %1st subscript is 1 val vector, so result is row
is_2d_r=1;
elseif (length(nums2)+length(words2))==1 %2nd sub is 1 val vector, result col
is_2d_c=1;
else %both are multivalued vectors
is_2d=1;
end
end
elseif any(strcmpi(typestr(1),typs{12})) %Only 1st sub is nonscalar, 2nd is scalar
is_2d_c=1; %Because this will be vectorized at some point (?? should we)
elseif any(strcmpi(typestr(2),typs{12})) %Only 2nd sub is nonscalar, 1st is scalar
is_2d_r=1; %Because this will be vectorized at some point (?? should we)
else %Do nothing, is scalar result
end
end
end
end
elseif length(find(strcmpi(funstrwords{i}(words(m)),'pi')))>0
is_real=1;
elseif length(find(strcmpi(funstrwords{i}(words(m)),'end')))>0
elseif length(find(strcmpi(funstrwords{i}(words(m)),{'i' 'j' 'cmplx'})))>0
is_real=0;is_complex=1;
elseif length(find(strcmpi(funstrwords{i}(words(m)),make_words)))>0 %make_variable
[howmany2,subscripts2,centercomma2,parens2]=hassubscript(i,words(m));
typestr=makeMATLABcallstring(howmany2,subscripts2,centercomma2,parens2,i,words(m));
eval(['[temp1,temp2,temp5]=',funstrwords{i}{words(m)}(1:end-1),'_make(''',typestr,''');']);
if any(strcmpi(temp5{2},typs{6})), is_real=1; end
if any(strcmpi(temp5{2},typs{3})), is_complex=1;end
if any(strcmpi(temp5{2},typs{8})), is_logical=1;end
if any(strcmpi(temp5{2},typs{1})), is_2d=1; end
if any(strcmpi(temp5{2},typs{4})), is_1d=1; end
if any(strcmpi(temp5{2},typs{9})), is_2d_r=1; end
if any(strcmpi(temp5{2},typs{10})),is_2d_c=1; end
elseif length(find(strcmpi(funstrwords{i}(words(m)),make_words2)))>0
%make_variable no f but not intrinsic
[howmany2,subscripts2,centercomma2,parens2]=hassubscript(i,words(m));
typestr=makeMATLABcallstring(howmany2,subscripts2,centercomma2,parens2,i,words(m));
eval(['[temp1,temp2,temp5]=',funstrwords{i}{words(m)},'_make(''',typestr,''');']);
if any(strcmpi(temp5{2},typs{6})), is_real=1; end
if any(strcmpi(temp5{2},typs{3})), is_complex=1;end
if any(strcmpi(temp5{2},typs{8})), is_logical=1;end
if any(strcmpi(temp5{2},typs{1})), is_2d=1; end
if any(strcmpi(temp5{2},typs{4})), is_1d=1; end
if any(strcmpi(temp5{2},typs{9})), is_2d_r=1; end
if any(strcmpi(temp5{2},typs{10})),is_2d_c=1; end
elseif any(strcmpi(funstrwords{i}(words(m)),filename_all)) %subroutine name
is_2d=1;
elseif any(strcmpi(funstrwords{i}(words(m)),intrinsics))
%Intrinsics means all words taken care of in functionresultsize.m
if ~(is_complex&is_2d)
tempstr=functionresultsize(i,words(m));
if any(strcmpi(typs{6},tempstr)), is_real=1; end
if any(strcmpi(typs{3},tempstr)), is_complex=1;end
if any(strcmpi(typs{8},tempstr)), is_logical=1;end
if any(strcmpi(typs{1},tempstr)), is_2d=1; end
if any(strcmpi(typs{4},tempstr)), is_1d=1; end
if any(strcmpi(typs{9},tempstr)), is_2d_r=1; end
if any(strcmpi(typs{10},tempstr)),is_2d_c=1; end
end
%%% if strcmpi(funstrwords{i}{words(m)},'sum')
%%% 'intrins',funstr{i},funstrwords{i}{words(m)}
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% tempstr
%%% kb
%%% end
elseif strncmp('mxT',funstrwords{i}(words(m)),3)
if length(funstrwords{i}{words(m)})>3
if strcmpi(funstrwords{i}{words(m)}(1:4),'mxTR')
is_real=1; is_2d=1;
end
if strcmpi(funstrwords{i}{words(m)}(1:4),'mxTC')
is_complex=1; is_2d=1;
end
if strcmpi(funstrwords{i}{words(m)}(1:4),'mxTI')
is_2d=1;
end
end
else
is_real=1; is_2d=1; %scalar=0; %default if something else is there (eg another mlcall)
end
end
end
%%% if strcmpi(funstrwords{i}{words(m)},'sum')
%%% 'intrins',funstr{i},funstrwords{i}{words(m)}
%%% m
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% kb
%%% end
end
if ~(is_1d|is_2d)
temp=findstr(funstr{i},'['); %Promote to vector if has a [] expr.
temp1=findrights(temp,funstr{i});
if ~isempty(temp)
temp=temp( (temp>=start)&(temp<=finish) );
if ~isempty(temp)
for m=1:length(temp)
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,temp(m)+1);
if ~isempty(parens3)
if parens3(1)==parens(1)
%funstr{i}(temp(m)+1:temp1(m)-1)
tempstr2=makeMATLABcallstring(1,{funstr{i}(temp(m)+1:temp1(m)-1)},[],[temp(m)+1 temp1(m)-1],i,inf);
if any(strcmpi(tempstr2,typs{6})), is_real=1; end
if any(strcmpi(tempstr2,typs{3})), is_complex=1;end
if any(strcmpi(tempstr2,typs{8})), is_logical=1;end
%%% 'reeeeeeeeeeeeeeeee2',funstr{i},outflag,howmany3,subscripts3,centercomma3,parens3,
%%% is_real
%%% is_complex
%%% is_integer
%%% kb
is_1d=1; break
else
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,temp(m)); %279
if ~isempty(parens3)
if parens3(1)==parens(1)
%funstr{i}(temp(m)+1:temp1(m)-1)
tempstr2=makeMATLABcallstring(1,{funstr{i}(temp(m)+1:temp1(m)-1)},[],[temp(m)+1 temp1(m)-1],i,inf);
if any(strcmpi(tempstr2,typs{6})), is_real=1; end
if any(strcmpi(tempstr2,typs{3})), is_complex=1;end
if any(strcmpi(tempstr2,typs{8})), is_logical=1;end
%%% 'reeeeeeeeeeeeeeeee',funstr{i},outflag,howmany3,subscripts3,centercomma3,parens3
%%% is_real
%%% is_complex
%%% is_integer
%%% kb
is_1d=1; break
end
end
end
end
end
%%% 'bracketmake',funstr{i}(start:finish),funstr{i},
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% kb
end
end
temp=findstr(funstr{i},':'); %Promote to vector if has a : expr.
if ~isempty(temp)
temp=temp( (temp>=start)&(temp<=finish) );
if ~isempty(temp)
for m=1:length(temp)
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,temp(m)); %35
if ~isempty(parens3)
if parens3(1)==parens(1)
is_1d=1; break
end
end
end
end
end
end
%%% if any(strcmpi('prod',funstrwords{i}))
%%% 'wqordggggggggg',funstr{i},funstrwords{i}{j},
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% kb
%%% end
if ~(is_real|is_complex)
%fid=0;parens3=[1 1];
for m=1:length(nums) % Promote to real if has a real number at main level
if m>1
%funstr{i},funstr{i}(start:finish),funstr{i},kb
if ~(funstrnumbers_b{i}(nums(m))>parens3(1) & funstrnumbers_b{i}(nums(m))<parens3(2) & ~any(funstr{i}(funstrnumbers_b{i}(nums(m-1)):funstrnumbers_b{i}(nums(m)))=='['))
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,funstrnumbers_b{i}(nums(m)));
end
else
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,funstrnumbers_b{i}(nums(m)));
end
if ~isempty(parens3)
%%% if parens(1)~=1 % Don't have a main level entity
if outflag==1 % In bracket
[outflag,howmany4,subscripts4,centercomma4,parens4]=inwhichlast(i,parens3(1));
else
parens4=parens3;
end
%%% end
if parens3(1)==parens(1) | parens4(1)==parens(1)
%funstr{i},funstr{i}(start:finish),funstr{i},kb
if length(intersect([typs{17}{:}],funstrnumbers{i}{nums(m)}))>0
is_real=1; break
end
end
end
end
end
%%% if any(strcmpi('prod',funstrwords{i}))
%%% 'wqordggggggggg22222',funstr{i},funstrwords{i}{j},
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% kb
%%% end
%Now decide what this is...
if is_2d_r|is_2d_c, is_2d=1; end
if is_2d, is_1d=1; scalar=1; end
if is_1d, scalar=1; end
if is_integer
tempstr1(k)=barr{3,end+1-scalar-is_1d-is_2d};
end
if is_real
tempstr1(k)=barr{2,end+1-scalar-is_1d-is_2d};
end
if is_complex
tempstr1(k)=barr{1,end+1-scalar-is_1d-is_2d};
end
%Now a test to see of this is a logical statement
for n=1:length(loglist)
if ~isempty(subscripts{k})
temp3=findstrexact(loglist{n},subscripts{k});
if ~isempty(temp3)
temp4=findstrexact(subscripts{k},funstr{i});
for p=1:length(temp3)
[outflag,howmany3,subscripts3,centercomma3,parens3]=inwhichlast(i,temp4+temp3(p)-1);
if ~isempty(parens3)
if parens(1)==parens3(1) %parens we are in match parens that relop is in
is_logical=1;
end
end
end
end
end
end
if is_logical
tempstr1(k)=barr{4,end+1-scalar-is_1d-is_2d};
end
if is_2d
[a(k),b(k)]=find(strcmpi(tempstr1(k),barr));
if is_2d_r, tempstr1(k)=barr2{a(k),1}; end
if is_2d_c, tempstr1(k)=barr2{a(k),2}; end
end
end
%%%if zzz
%%% '11111111111111111'
%%% if ~isempty(parens)
%%% is_real
%%% is_complex
%%% is_integer
%%% is_logical
%%% is_1d
%%% is_2d
%%% is_2d_r
%%% is_2d_c
%%% scalar
%%% funstr{i}(parens(1):parens(2))
%%% end
%%% howmany,subscripts,centercomma,parens
%%% funstr{i},
%%% tempstr1
%%% kb
%%%end